Lead in the
Body
Part 1: Background: A
Compartment Model
Lead enters the human body
from the environment by inhalation, by eating, and by drinking. From the
lungs and gut, lead is taken up by the blood and rapidly distributed to
the liver and kidneys. It is slowly absorbed by other soft tissues and
very slowly by the bones. Lead is excreted from the body primarily through
the urinary system and through hair, nails, and sweat (see figure).
We model the flow of lead
into, through, and out of a body with separate compartments for blood,
bones, and other tissues, plus a compartment for the external
environment. For i = 1, 2, 3, we let xi(t)
be the amount of lead in compartment i at time t, and we
assume that the rate of transfer from compartment i to compartment
j is proportional to xi(t) with proportionality
constant aji. We do not bother to represent Compartment
0 by a variable, because we are not concerned with the quantity
of lead outside the body. The body is not a closed system, but including
an extra compartment in the model creates a closed system. We assume that
exposure to lead in the environment results in ingestion of lead at a constant
rate L. This external input is a “driving force” -- that is, the
system is nonhomogeneous. The units for amounts of lead are micrograms
(ug), and time t is measured in days.
